Costs of mate-guarding in wild male long-tailed macaques (Macaca fascicularis)

In vielen promisken Paarungssystemen konkurrieren die Männchen einer Gruppe um den Zugang zu fertilen Weibchen. Um es Rivalen zu erschweren, haben sie verschiedene Paarungstaktiken entwickelt. Eine von Vertebraten und Invertebraten oft genutzte Strategie ist das „mate-guarding“. Hier bewacht ein hochrangiges Männchen das fertile Weibchen indem es ständig in dessen Nähe bleibt, wodurch es den Zugang der anderen Männchen stark minimiert. Durch diese Monopolisierung des Weibchens erhöht ein Männchen seinen Reproduktionserfolg und damit zusätzlich die Wahrscheinlichkeit der Vaterschaft. Diese für das Männchen gewinnbringende Strategie birgt jedoch auch energetische Kosten. Solche negativen Verknüpfungen zwischen Kosten und Gewinn, sogenannte „trade-offs“, beeinflussen den Fortpflanzungserfolg ebenso wie die Körperkondition und die Überlebenschance eines Männchens. Haben solche Kosten beispielsweise eine Verschlechterung der körperlichen Verfassung zur Folge, kann sich das negativ auf die Fähigkeiten der Männchen, ein Weibchen zu monopolisieren, auswirken und damit den Vaterschaftserfolg der Männchen mindern. Die mit solch einer Paarungstaktik wie dem „mate-guarding“ einhergehenden Kosten könnten sich auch auf die Entstehung von Strategien zur Partnerwahl bei den Männchen auswirken: Männchen sollten ihre Energie vor allem auf die Reproduktion mit den fittesten Weibchen aufwenden. Um die grundlegenden Faktoren der Partnerwahl sowie die Verteilung des Reproduktionserfolges unter den Männchen („reproductive skew“) besser zu verstehen, müssen die bei der Monopolisierung des Weibchens entstehenden Kosten quantifiziert werden. Primaten sind ein interessantes Taxa um diese Fragen zu untersuchen, da viele Arten in stabilen Mehr-Männchen-Gruppen leben und „mate-guarding“ eine vorteilhafte Taktik ist, die oft von hochrangigen Männchen angewandt wird. Allerdings haben sich bisherige Studien an Primaten auf die Quantifizierung der Futterkosten beschränkt und die Ergebnisse sind bisher sehr widersprüchlich. Unser Verständnis dieser Kosten wird weiterhin durch das Fehlen eines zuverlässigen, nicht-invasiven physiologischen Markers, der den energetischen Zustand von Nicht-Menschenaffen misst, beeinträchtigt. Das Hauptziel dieser Arbeit war es daher, die Kosten des „mate-guarding“ in einer Primatenart, die in Mehr-Männchen-Gruppen lebt wie die Javaneraffen (Macaca fascicularis), zu quantifizieren. Bisherige Ergebnisse zeigen, dass die Alpha-Männchen dieser Primatenart ihre Weibchen weniger monopolisieren als das „Priority of Access-Model“ vorhersagt. Der Monopolisierungserfolg scheint demnach durch die Kosten, die den Männchen durch das „mate-guarding“ entstehen, limitiert zu sein. In Studie 1 der vorliegenden Arbeit habe ich die Eignung von Urin C-Peptiden (UCP, ein Nebenprodukt der Insulinproduktion), als Marker für den Energiestatus von Makakenmännchen, evaluiert. In Studie 2 und 3 quantifizierte ich die energetischen, physiologischen und physischen (z.B. Aggression) Kosten des „mate-guardings“. In der vierten Studie untersuchte ich den Einfluss der Qualität der Weibchen auf die Kosten der des „mate-guardings“ und die Investition der Männchen in dieses Verhalten. Als erstes betrachtete ich den Zusammenhang zwischen den UCP Werten und Indikatoren für den Zustand der körperlichen Verfassung bei frei- und in Gefangenschaft lebender Makaken, um UCP als zuverlässigen Marker für Energiestatus (Studie 1) zu validieren. Die UCP Level waren positiv korreliert mit dem BMI (Body-Mass-Index) sowie mit dem Fettgehalt einer Hautfalte. In einem Experiment, bei dem die Futterzufuhr reduziert wurde, stellte sich heraus, dass UCP Level mit Änderungen des BMI und der geminderten Futterzufuhr kovariiert. Demzufolge ist UCP ein nützlicher Marker um nicht-invasiv intra- und interindividuelle Veränderungen der Körperkondition und des Ernährungszustandes zu ermitteln. Für die weitere Fragestellung beobachtete ich drei freilebende Javaneraffengruppen während zwei Paarungsperioden, in Ketambe, Gunung Leuser National Park in Indonesien. Um ein möglichst umfassendes Bild der potentiellen Kosten des „mate-guarding“ bereitzustellen, kombinierte ich zum einen meine durchgeführten Verhaltensbeobachtungen der Männchen, den Aufenthalt der Männchen in den Bäumen und sexuelle Interaktionen der Männchen mit den Weibchen. Zum anderen ermittelte ich GPS-Daten der Wanderungsdistanz, non-invasive Indikatoren für physiologischen Stress (faecal glucocorticoid, fGC), den Energiestatus (UCP) und bewertete die Verfügbarkeit von Früchten. Insgesamt konnten 2088 Fokusstunden, 331 Urin- und 771 Kotproben gesammelt und analysiert werden. Zudem wurden jeden Monat 360 Fruchtbäume begutachtet. In Studie 2 konnte ich zeigen, dass „mate-guarding“ die Parameter der Energieaufnahme und des Energieverbrauches reduziert. Dies hatte jedoch keine signifikanten Auswirkungen auf den gesamten Energiestatus (UCP Level) eines Männchens. Dieses Ergebnis weist auf ein ausbalanciertes Verhältnis von Energieaufnahme und Energieverbrauch der Männchen während des „mate-guardings“ hin. In Studie 3 konnte ich nachweisen, dass die Männchen während des „mate-guardings“, höhere fGC Werte aufwiesen. Dieser Wert wurde jedoch durch die Zeit, die Männchen in Vigilanz investieren, moduliert. „Mate-guarding” erhöhte einerseits die Vigilanzzeit eines Männchens und andererseits auch die Aggressionsrate der Männchen. Alpha-Männchen waren das ganze Jahr über gestresster als andere Männchen, unabhängig von Paarungskonkurrenz. Dies suggeriert, dass erhöhte Glucocorticoidlevel während des „mate-guarding“ den Männchen helfen ihre energetische Homöostase aufrechtzuerhalten, jedoch könnte dies Langzeitkosten darstellen, die bei lang anhaltender Belastung zu chronischem Stress führen können. Die Kombination dieser physiologischer Kosten und dem Verletzungsrisiko, dass mit Aggressionen einhergeht, könnte die Möglichkeit eines Alphamännchens ein Weibchen zu monopolisieren minimieren und damit auch Einfluss auf die Verteilung des Reproduktionserfolges der Männchen in einer Gruppe haben. In Studie 4 konnte ich zeigen, dass männliche Javaneraffen einige der Kosten des „mate-guarding“ reduzieren können indem sie gezielt Weibchen mit hohem reproduktiven Wert bewachen, da sie dann geringere fGC Werte haben. Darüber hinaus passten Männchen ihre Investition in „mate-guarding“ an, indem sie aufmerksamer und aggressiver waren wenn sie hochrangige Weibchen oder Weibchen mit denen sie starke Bindungen formten, bewachten. Diese Ergebnisse bestätigen, dass Männchen nicht nur hochwertige Weibchen auswählen, sondern diese auch länger und besser monopolisieren. In meiner Arbeit konnte ich die Kosten, die „mate-guarding“ für die Männchen einer Primatenart mit sich bringt, aufzeigen und hervorheben wie diese Kosten die Verteilung des Reproduktionserfolges unter den Männchen in der Gruppe beeinflusst. Auf Grundlage meiner Ergebnisse schlage ich vor, dass männliche Javaneraffen eine „unvollständige Weibchenmonopolisierungs-Strategie“ entwickelt haben, bei der sie die Kosten des „mate-guarding“ reduzieren indem sie Weibchen selektiv nach deren Reproduktionsqualität wählen und Weibchen mit geringerer Qualität weniger gründlich monopolisieren. Diese unvollständige Weibchenmonopolisierung könnte eine entscheidende Komponente des Energiemanagements von Alphamännchen sein, die ihnen erlaubt ganzjährig adäquat auf versuchte Rangübernahmen zu reagieren und somit ihre Amtszeit zu verlängern und die damit einhergehenden Fitnessvorteile zu erhalten. Beim Vergleich meiner Ergebnisse mit anderen Säugetier-Taxa, diskutiere ich in meiner Arbeit weiterhin die Beziehung zwischen den Kosten des „mate-guarding“ und der Verteilung des Reproduktionserfolges der Männchen in der Gruppe, die durch 1) reproduktive Saisonalität, 2) Energie-Management-Strategien der Männchen, 3) Errungenschaft eines hohen Ranges in der Gruppe und 4) der Sozialstruktur, moduliert sein kann. Zukünftige Studien, die die Kosten der Paarungstaktiken der Männchen untersuchen, sollten die Komplexität des Reproduktionsaufwandes, den Männchen investieren, bedenken. Diese Investitionen scheinen nicht ausschließlich auf die reproduktive Phase im Jahr beschränkt zu sein, sondern können sich über das ganze Jahr verteilen und spiegeln sich in Form der Konkurrenz zwischen Männchen in Bezug auf Rangstatus und sozialen Interaktionen wider

Population-specific call order in chimpanzee greeting vocal sequences

This study was funded by the Max Planck Society and the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program awarded to C.C. (grant agreement no. 679787) and ERC (Prilang GA283871) and by Leverhulme Trust Research Leadership Award. Core funding for the Taï Chimpanzee Project has been provided by the Max Planck Society since 1997 and for Budongo Conservation Field station by the Royal Zoological Society of Scotland.Primates rarely learn new vocalisations, but they can learn to use their vocalizations in different contexts. Such ‘vocal usage learning’, particularly in vocal sequences, is a hallmark of human language, but remains understudied in non-human primates. We assess usage learning in four wild chimpanzee communities of Taï and Budongo Forests by investigating population differences in call ordering of a greeting vocal sequence. Whilst in all groups, these sequences consisted of pant-hoots (long-distance contact call) and pant-grunts (short-distance submissive call), the order of the two calls differed across populations. Taï chimpanzees consistently commenced greetings with pant-hoots whereas Budongo chimpanzees started with pant-grunts. We discuss different hypotheses to explain this pattern and conclude that higher intra-group aggression in Budongo may have led to a local pattern of individuals signalling submission first. This highlights how within-species variation in social dynamics may lead to flexibility in call order production, possibly acquired via usage learning.Publisher PDFPeer reviewe

Maternal gregariousness and female audience effects mediate mother–infant proximity in wild chimpanzees

Funding: The study was funded by the European Research Council project grant (grant agreement number: 679787).In animal species with parental care, maintaining offspring–carer proximity is an important adaptation protecting offspring from threats such as predation and conspecific aggression, but doing so may limit other social opportunities. Investigating factors impacting mother–infant proximity can, therefore, provide insights into the evolution of maternal responses towards multidimensional threats. Here, we examine the social factors impacting mother–offspring proximity in two populations of wild chimpanzees with differing levels of infanticidal threats, eastern chimpanzees, Pan troglodytes schweinfurthii, in Budongo Forest, Uganda and western chimpanzees, P. t. verus, in Taï Forest, Ivory Coast. We assessed whether (1) the number of males and females in fission–fusion subgroups predicts proximity levels between mothers and their youngest infants, (2) whether it is mediated by maternal gregariousness and (3) whether this relationship differs in the two populations. In both populations and independent of maternal gregariousness, we found no clear relationship between mother–infant proximity and the number of males in the party. However, in Budongo, where an infanticidal threat is high, mother–infant proximity was mediated by both maternal gregariousness and the number of other females present. Less gregarious mothers were closer to their youngest offspring in parties with large numbers of females, while the opposite pattern applied to highly gregarious mothers. In Taï, more gregarious females were more often in proximity with their offspring. Our results demonstrate that the immediate social environment, maternal social phenotype and overall community-specific threats can all influence maternal response to varying exposure to threats. The consequences of exposure to this environment on offspring's social development merit further investigation.Peer reviewe

Sourcing high tissue quality brains from deceased wild primates with known socio-ecology

1. The selection pressures that drove dramatic encephalisation processes through the mammal lineage remain elusive, as does knowledge of brain structure reorganisation through this process. In particular, considerable structural brain changes are present across the primate lineage, culminating in the complex human brain that allows for unique behaviours such as language and sophisticated tool use. To understand this evolution, a diverse sample set of humans' closest relatives with varying socio-ecologies is needed. However, current brain banks predominantly curate brains from primates that died in zoological gardens. We try to address this gap by establishing a field pipeline mitigating the challenges associated with brain extractions of wild primates in their natural habitat. 2. The success of our approach is demonstrated by our ability to acquire a novel brain sample of deceased primates with highly variable socio-ecological exposure and a particular focus on wild chimpanzees. Methods in acquiring brain tissue from wild settings are comprehensively explained, highlighting the feasibility of conducting brain extraction procedures under strict biosafety measures by trained veterinarians in field sites. 3. Brains are assessed at a fine-structural level via high-resolution MRI and state-of-the-art histology. Analyses confirm that excellent tissue quality of primate brains sourced in the field can be achieved with a comparable tissue quality of brains acquired from zoo-living primates. 4. Our field methods are noninvasive, here defined as not harming living animals, and may be applied to other mammal systems than primates. In sum, the field protocol and methodological pipeline validated here pose a major advance for assessing the influence of socio-ecology on medium to large mammal brains, at both macro- and microstructural levels as well as aiding with the functional annotation of brain regions and neuronal pathways via specific behaviour assessments

Mate-guarding constrains feeding activity but not energetic status of wild male long-tailed macaques (Macaca fascicularis).

Mate-guarding is an important determinant of male reproductive success in a number of species. Little is known however about the constraints of this behaviour, e.g. the associated energetic costs. We investigated these costs in long-tailed macaques where alpha males mate guard females to a lesser extent than predicted by the priority of access model. The study was carried out during two mating periods on three wild groups living in the Gunung Leuser National Park, Indonesia. We combined behavioural observations on males' locomotion and feeding activity, GPS records of distance travelled and non-invasive measurements of urinary C-peptide (UCP), a physiological indicator of male energetic status. Mate-guarding led to a decrease in feeding time and fruit consumption suggesting a reduced intake of energy. At the same time, vertical locomotion was reduced, which potentially saved energy. These findings, together with the fact that we did not find an effect of mate-guarding on UCP levels, suggest that energy intake and expenditure was balanced during mate-guarding in our study males. Mate-guarding thus seems to not be energetically costly under all circumstances. Given that in strictly seasonal rhesus macaques, high-ranking males lose physical condition over the mating period, we hypothesise that the energetic costs of mate-guarding vary inter-specifically depending on the degree of seasonality and that males of non-strictly seasonal species might be better adapted to maintain balanced energetic condition year-round. Finally, our results illustrate the importance of combining behavioural assessments of both energy intake and expenditure with physiological measures when investigating energetic costs of behavioural strategies

Early maternal loss leads to short-but not long-term effects on diurnal cortisol slopes in wild chimpanzees

The biological embedding model (BEM) suggests that fitness costs of maternal loss arise when early-life experience embeds long-term alterations to hypothalamic-pituitary-adrenal (HPA) axis activity. Alternatively, the adaptive calibration model (ACM) regards physiological changes during ontogeny as short-term adaptations. Both models have been tested in humans but rarely in wild, long-lived animals. We assessed whether, as in humans, maternal loss had short-and long-term impacts on orphan wild chimpanzee urinary cortisol levels and diurnal urinary cortisol slopes, both indicative of HPA axis functioning. Immature chimpanzees recently orphaned and/or orphaned early in life had diurnal cortisol slopes reflecting heightened activation of the HPA axis. However, these effects appeared short-term, with no consistent differences between orphan and non-orphan cortisol profiles in mature males, suggesting stronger support for the ACM than the BEM in wild chimpan-zees. Compensatory mechanisms, such as adoption, may buffer against certain physiological effects of maternal loss in this species

Patterns of urinary cortisol levels during ontogeny appear population specific rather than species specific in wild chimpanzees and bonobos

Compared with most mammals, postnatal development in great apes is protracted, presenting both an extended period of phenotypic plasticity to environmental conditions and the potential for sustained mother-offspring and/or sibling conflict over resources. Comparisons of cortisol levels during ontogeny can reveal physiological plasticity to species or population specific socioecological factors and in turn how these factors might ameliorate or exaggerate mother-offspring and sibling conflict. Here, we examine developmental patterns of cortisol levels in two wild chimpanzee populations (Budongo and Taï), with two and three communities each, and one wild bonobo population (LuiKotale), with two communities. Both species have similar juvenile life histories. Nonetheless, we predicted that key differences in socioecological factors, such as feeding competition, would lead to interspecific variation in mother-offspring and sibling conflict and thus variation in ontogenetic cortisol patterns. We measured urinary cortisol levels in 1394 samples collected from 37 bonobos and 100 chimpanzees aged up to 12 years. The significant differences in age-related variation in cortisol levels appeared population specific rather than species specific. Both bonobos and Taï chimpanzees had comparatively stable and gradually increasing cortisol levels throughout development; Budongo chimpanzees experienced declining cortisol levels before increases in later ontogeny. These age-related population differences in cortisol patterns were not explained by mother-offspring or sibling conflict specifically; instead, the comparatively stable cortisol patterns of bonobos and Taï chimpanzees likely reflect a consistency in experience of competition and the social environment compared with Budongo chimpanzees, where mothers may adopt more variable strategies related to infanticide risk and resource availability. The clear population-level differences within chimpanzees highlight potential intraspecific flexibility in developmental processes in apes, suggesting the flexibility and diversity in rearing strategies seen in humans may have a deep evolutionary history.Publisher PDFPeer reviewe

Sex and dominance: How to assess and interpret intersexual dominance relationships in mammalian societies

The causes and consequences of being in a particular dominance position have been illuminated in various animal species, and new methods to assess dominance relationships and to describe the structure of dominance hierarchies have been developed in recent years. Most research has focused on same-sex relationships, however, so that intersexual dominance relationships and hierarchies including both sexes have remained much less studied. In particular, different methods continue to be employed to rank males and females along a dominance hierarchy, and sex biases in dominance are still widely regarded as simple byproducts of sexual size dimorphism. However, males and females regularly compete over similar resources when living in the same group, and sexual conflict takes a variety of forms across societies. These processes affect the fitness of both sexes, and are mitigated by intersexual hierarchies. In this study, we draw on data from free-ranging populations of nine species of mammals that vary in the degree to which members of one sex dominate members of the other sex to explore the consequences of using different criteria and procedures for describing intra- and intersexual dominance relationships in these societies. Our analyses confirmed a continuum in patterns of intersexual dominance, from strictly male-dominated species to strictly female-dominated species. All indices of the degree of female dominance were well correlated with each other. The rank order among same-sex individuals was highly correlated between the intra- and intersexual hierarchies, and such correlation was not affected by the degree of female dominance. The relative prevalence of aggression and submission was sensitive to variation in the degree of female dominance across species, with more submissive signals and fewer aggressive acts being used in societies where female dominance prevails. Thus, this study provides important insights and key methodological tools to study intersexual dominance relationships in mammals

Long arcuate fascicle in wild and captive chimpanzees as a potential structural precursor of the language network

The arcuate fascicle (AF) is the main fibre tract in the brain for human language. It connects frontal and temporal language areas in the superior and middle temporal gyrus (MTG). The AF’s connection to the MTG was considered unique to humans and has influenced theories of the evolution of language. Here, using high-resolution diffusion MRI of post-mortem brains, we demonstrate that both wild and captive chimpanzees have a direct AF connection into the MTG, albeit weaker than in humans. This finding challenges the notion of a strictly human-specific AF morphology and suggests that language-related neural specialisation in humans likely evolved through gradual evolutionary strengthening of a pre-existing connection, rather than arising de novo. It is likely that this neural architecture supporting complex communication was already present in the last common ancestor of hominins and chimpanzees 7 million years ago, enabling the evolution of language processes in the human lineage.EBC Consortium consists of: Bala Amarasekaran, Alfred Anwander, Caroline Asiimwe, Daniel Aschoff, Yannick Becker, Martina Bleyer, Christian Bock, Julian Chantrey, Catherine Crockford, Tobias Deschner, Cornelius Eichner, Pawel Fedurek, Karina Flores, Angela D. Friederici, Cédric Girard-Buttoz, Zoro Bertain Gone Bi, Angela D. Friederici, Tobias Gräßle, Jennifer E. Jaffe, Carsten Jäger, Susan Hambrech, Daniel Hanus, Daniel Haun, Evgeniya Kirilina, Kathrin Kopp, Fabian H. Leendertz, Matyas Liptovszky, Patrice Makouloutou-Nzassi, Kerstin Mätz-Rensing, Richard McElreath, Matthew McLennan, Zoltan Mezö, Sophie Moittié, Torsten Møller, Markus Morawski, Karin Olofsson-Sannö, Michael Paquette, Simone Pika, Andrea Pizarro, Kamilla Pléh, Jessica Rendel, Alejandra Romero Forero, Jonas Steiner, Mark F. Stidworthy, Lara Southern, Claudia A. Szentiks, Tanguy Tanga, Reiner Ulrich, Steve Unwin, Sue Walker, Nikolaus Weiskopf, Gudrun Wibbelt, Cédric Girard-Buttoz, Kim Wood & Klaus Zuberbühle

Shared community effects and the non-genetic maternal environment shape cortisol levels in wild chimpanzees

Mechanisms of inheritance remain poorly defined for many fitness-mediating traits, especially in long-lived animals with protracted development. Using 6,123 urinary samples from 170 wild chimpanzees, we examined the contributions of genetics, non-genetic maternal effects, and shared community effects on variation in cortisol levels, an established predictor of survival in long-lived primates. Despite evidence for consistent individual variation in cortisol levels across years, between-group effects were more influential and made an overwhelming contribution to variation in this trait. Focusing on within-group variation, non-genetic maternal effects accounted for 8% of the individual differences in average cortisol levels, significantly more than that attributable to genetic factors, which was indistinguishable from zero. These maternal effects are consistent with a primary role of a shared environment in shaping physiology. For chimpanzees, and perhaps other species with long life histories, community and maternal effects appear more relevant than genetic inheritance in shaping key physiological traits.Additional co-authors: Klaus Zuberbuehler, Linda Vigilant, Tobias Deschner, Roman M. Wittig & Catherine Crockfor